Latest Articles for Particle Physics

Research into nTGCs could reveal new physics beyond the Standard Model.

Scientists investigate dark matter using advanced techniques at the LHC.

Investigating cosmic rays and the implications of the GZK cut-off.

This article examines how particles interact with black bounce spacetimes.

Machine learning improves identification of cosmic ray isotopes for space research.

COSINUS uses NaI crystals and a muon veto to investigate dark matter.

This article examines the shift from superfluid to Bose-glass in bosonic systems.

Exploring gravitational waves from a unique particle physics model.

Unraveling potential partner particles through advanced research and technology.

Exploring the potential of gauged Q-balls as a solution to dark matter.

Research uses Bose-Einstein condensates to mimic black hole effects in quantum physics.

Exploring how particle interactions affect the efficiency of quantum Otto engines.

Research focuses on neutron interactions to better grasp dark matter and new particles.

LUX-ZEPLIN aims to uncover the secrets of elusive WIMPs and dark matter.

Examining scalar fields and reheating in the transition from inflation to kination.

Research sheds light on ultralight dark matter and its interactions.

This study investigates false vacuum decay and its implications in physics.

Exploring heavy-ion collisions reveals the complex behavior of gluons in nuclear matter.

Explore the mysterious properties and implications of neutrinos in particle physics.

Discover how particles gain energy in supernova remnants through shock waves.

ANAIS-112 reveals no evidence supporting dark matter signals reported by DAMA.

Exploring the potential of identical particles as resources for non-local correlations in experiments.

Researchers investigate Higgs boson pairs using vector-boson fusion.

Investigating how neutrinos influence heavy element formation during neutron star mergers.

Research reveals intricate behaviors of oscillons and kink-antikink pairs in particle physics.

Exploring the relationships between particles and fields in theoretical physics.

Examining the significance and properties of cosmic voids in cosmology.

Studying high-energy neutrinos from supernovae may reveal insights about dark photons.

Understanding CP violation sheds light on matter-antimatter imbalance in the universe.

Exploring how the eGM model sheds light on Higgs boson interactions.

Recent research investigates heavy Higgs bosons decaying into top quarks using LHC data.

Exploring the phenomenon of fragmentation in Bose gases and its implications.

Examining how axions may alter Casimir pressure in quantum physics.

Research explores axions and their connection to gravitational waves and dark matter.

Exploring a semi-analytical approach to DGLAP equations in particle physics.

b-CASTOR uses machine learning to find regions explaining particle physics anomalies.

A fresh look at conservation laws for individual measurements in quantum systems.

Scientists create a hybrid material to improve neutron detection for dark matter research.

Machine learning techniques improve data analysis in particle physics experiments.

Research reveals links between gas density and background noise in ATLAS.